Automatic phonograph



M. Ni N KLER AUTOMATIC PHONOGRAPH Filed oct. 23, 1941 12 Sheets-sheet 2 nl unil Z22/ewa fv/5%@ April 9, 19.46. M. R. WINKLER 2,398,067

AUTOMATIC PHONOGRAPH Filed Oct. 25, 1941 l2 Sheets-Sheet 3 Il i295 I l I April 9, 1946. M. R. WINKLER 2,398,067

AUTOMATIC PHONOGRAPH 12 Sheets-Sheet 4 Filed Oct. 23, 1941 April 9, 1946. M. R. wlNKLE l 2,398,067

AUTOMATIC PH(.)IKJCIRXP'v Filed oct. 2s, 1941 12 sheets-sheets llO 'ffii/w April 9, 1946. M. R. wlNLeR AUTOMATIC PHONOGRAPH Filed oct. 23, 1941 12 sheets-sheet s IIII I. lill! April 9 1946# M. R. WINKLER 2,398,067

AUTOMATIC PHONOGRAPH l Filed oct; 25, 1941 12 sheets-sheet 'r F H7 V. LINE f/ I m nc. SUPPLY /75 @8-V67 /f/ April 9, 1946. M. R. WINKLER 2,398,067

` AUTOMATIC PHONOGRAPH Fiied oet. 23, 1941 9 12 sheets-sheet 9 ZL-Q13 April 9, 1946. M. R. WINKLER AUTOMATIC PHONOGRAPH Filed Oct. 25, 1941 12 SheetS-Sheet 10 April 9, 1946- M. R. wlNKLER 2,398,067

AUTOMAT I C PHONOGRAPH Filed Oct. 23, 1941 l 12 Sheets-Sheet ll @fwmw APYil 9, 1946. i M. R. WINKLER 2,398,067

AUTOMAT IC PHONOGRAPH Filed oct. 23, 1941 12 sheets-sheet 12 Patented Apr. i, 1946il AUTOMATIC PHONOGRAPH Marion B. Winkler, Chicago, Ill., assignor to J. P.

Seeburg Corporation, Chicago, Ill., a corporation of Illinois Application October 23, 1941, Serial No. 416,140

17 Claims.

This invention relates to automatic phonographs yand particularly to automatic phonographs which are intended or adapted to be controlled from one or more positions remote with respect to the phonograph.

One of the principal objects of the invention is to provide an improved remote control phonograph.

A further object of the invention is to provide an improved remote control phonograph in which the manually operable selector elements and the selector elements on the phonograph unit are of simple character and still capable of efiecting the selection of a very large number of records.

A further object oi the invention is to provide an improved selector for automatic phonographs having manually operable means requiring a plurality oi operations for the selection of a particular recording and means cooperating therewith and responsive to such plurality ot operations to effect the reproduction of a single recording.

A further object of the invention is to provide an improved selector dial and mechanism actuated thereby, which mechanism is freed from control oi' the dial by reverse movement of the dial.

Other objects, advantages and capabilities oi the invention will appear from the description oi a preferred embodiment thereof taken in conjunction with the accompanying "drawings in which:

Fig. l is a sectional elevational view of a phonograph equipped with the present invention;

Fig. 2 is a fragmentary plan view thereof;

Fig. 3 is a sectional elevation oi' the phonograph as viewed from the front;

Fig. 4 is a detail view showing the manner in which adjacent selector members cause arrestment of the carriage at the same position for playing recordings on opposite sides of the corresponding record;

Fig. 5 is a longitudinal view of the selector system which directly actuates the selector members;

Fig. 6 is a sectional view therethrough showing the manner in which the selector mechanism is brought into position for the selection oi one of a sub-group o! selector members, the dogs being shown in normal or inactive position;

Fig. 'I is a similar view showing the dogs in operation; f

Fig. 8 is a fragmentary longitudinal sectional view showing the mechanism for effecting endwise control of the selector mechanism. the actuating dogs being shown in normal disengaged position;

Fig. 9 is al similar view showing the dogs in engaged position;

Fig. l0 is a wiring diagram showing the power supply and also the relation of the various relays and switches shown in Figs. 5, 6, 7, 8 and 9;

Fig. 11 is an elevational view of the selector mechanism shown in Fig. 5 as viewed from the right in Fig. 5;

Fig. 12 is an elevational view partly broken away, showing the remote control cabinet or wall box of the selector;

Fig. 13 is a sectional view therethrough taken on the line l3-I3 of Fig. 12:

Fig. 14 is a perspective view showing the mechanisxn which controls the release of the impulser from the dial;

Fig. 15 is a sectional view taken on the line lS-I of F18. 13;

Fig. 16 is a similar view showing the elements in a different position oi' adjustment;

Fig. 17 is a still similar view showing the manner in which the driving element connected with the dial is separated from the element actuated thereby under certain conditions;

Fig. 18 is a sectional detail view taken on the line IB--IB of Fig. 13, showing the credit ratchet wheel and the elements coacting therewith in their normal condition before dialing;

Fig. 19 is a similar view showing the relation of the elements during the ilrst dialing;

Fig. 20 is a view similar to Fig. 18 showing the relation of elements after the iirst dialing;

Fig. 21 is a view similar to Fig. 19, showing the relation of the elements during the second dialing;

Fig. 22 is a sectional elevation of the wall box taken on the line 22--22 of Fig. 13 showing the governor and the ratchet mechanism which permits actuation oi the dial in one direction without operation of the governor;

Fig. 23 is a sectional detail taken on the line 23-23 oi Fig. 13 showing the impulsing switch; and

Fig. 24 is a wiring diagram of the connections within the wall box or remote control unit.

My improved phonograph selector is adaptable to any multi-selective phonograph in which there is one displaceable element corresponding to each recording and determining the playing of such recording. In Figs. 1, 2 and 3, I have substantially reproduced the phonograph described and claimed in application Serial No. 346,105, filed July 18, 1940, with slight modifications, to adapt it, to the present selector, which modifications will be pointed out in detail hereinafter.

It may here be remarked that in the embodiment of my invention illustrated, use a dial of the automatic telephone type. This dial has ten openings corresponding to the numbers il up to a. The preferred selecting signal comprises two movements of the dial and consequently it is capable of controlling one hundred recordings. It will of course be understood that the invention is not intended to be limited to any particular number of recordings since I may provide the dial with any desired number of openings identified by some number, letter, or other sign, and control the selection ot a number oi recordings equal to the square of the number of openings or any lesser number.

The phonograph referred to is adapted to play both sides of the records, being provided with a displaceable arm 3i) for each recording. The magazine 3| is enlarged to accommodate fifty records. The base 32 and the splined shaft 33 are made longer than the corresponding elements shown in the aforesaid application. The records are supported in the magazine on two bars 3i and 35, each record position being defined by arms 36 mounted on the bar 34. To accommodate fifty records, there are fifty-one such arms.

In the application referred to the motor 3l is controlled by a single switch. In the present modiiication this single switch is replaced by three parallel switches 38, 39 and 40 and it will be understood that the motor is in operation when any one or more of these three switches is closed. These three switches and the motor are associated with a reversing switch system 4I which is controlled by the carriage 42 in the manner described in said application. The reversing switch system 4| is actuated at each end or the travel of the carriage 42 in the same manner as is described in said application.

For the purposes of the present invention it is preferred that all of the` selector arms 30 should have even spacing so that one set o! alternate arms 30 corresponds to the recordings on the left-hand sides oi' the records while the other alternate set of arms 39 corresponds to the recordings on the right-hand sides oi.' the records. Thus, the arm 39 corresponding to one side of a certain record is immediately adjacent the arm 39 corresponding to the other side of the same record.

The travel of the carriage 42 is arrested with the turntable elements 43 in position to receive a record moved up between them by a record moving arm 44 which is mounted on and travels with the carriage 42. The point of arrestment of the carriage is determined by the movement of a bell crank lever 45 which serves as a latch for a member 46.

'I'he arms 30 are provided with upward projections 41 and 4B which are adapted to cooperate with dogs 49 and 50, respectively. The projections 41 and 48 are alternately displaced in the transverse direction as seen in Fig. l and the dogs 49 and 50 are likewise displaced. These dogs are pivotally mounted on one end of the bell crank lever 45 so as to depend downwardly for engagement with the projections 41 and 48.

As best seen in Fig. 4, the dogs 49 and 50 are provided with abutmcnts i and 52, respectively, so that the dog 49 is free to swing to the right, as viewed in Fig. 4, but is held against movement to the left, and the dog 50 is free to swing to the left. as viewed in Fig. 4, and is held against swinging to the right.

netz-acer When the carriage il is moving to the lei't, as viewed in liig. fi, and il a plurality oi the arms 39 are actuated so as to elevate both types oi projections 4l and 48, then the dog 49 will swing freely over any elevated projections 4l. which it may encounter. When, however, the dog 5U engages an elevated projection 48, the bell crank lever #5 is swung in the counterclockwise direction as viewed in Fig. l, the movement of the carriage is arrested, and the arm 4 Starts to rise to move the corresponding record onto the turntable elements 53. The movement of the carriage ft2 is suflicient to enable the dog 50 to depress the actuated lever 39 the return or downward :movement of the level 39 being completed by the spring element 53 which cooperates with o. recess on the inner end oi the arm 30.

During the return oi the arm 30 the bell crank lever 45 bears against an abutment 54 and, owing to the abutting relation between the dog 50 and the abutment 5t', the engaged arm 39 must move downwardly. It will ci course be understood that when the carriage is movhig in the opposite direction, the dog .Bil is inoperative and the dog 45 is operative owing to .its relation with the abutment 5i.

The pivotal axes of the dogs t9 ,and 5U are such that the carriage is arrested by either of the two arms 30 corresponding to a single record in exactly the same position. Thus, in Fig. 4, if the arm 30, designated individually as 30a, controls one side of a record and the adjacent arm 36, marked individually 30h, corresponds to the other side of the saine record, then the dogs 49 and 50 are so located that the carriage is arrested by cooperation between the selector arm 30a and the dog 49 when the carriage is moving to the right in the same position as it is arrested by cooperation between the dog En and the arm 30o when the carriage is moving to the left.

The three switches o3, 39 and 40 are normally open. A bar 55 extends over all the arms 30 so as to be elevated by any one of them which is moved upwardly. The bar 55 may suitably be held in position by terminal arms 56 which are pivotecl to any suitable part of the frame. The switch 38 is actuated by the bar 55 being closed when this bar moves upwardly.

A bar 5l is adapted to engage the switch 4D so as to hold the same open. The switch 40 may suitably be mounted on the carriage 42 as may likewise be the switch 38, the bars 55 and 5l being sufficiently lonar to engage the switches in any position oi the carriage 42.

The bar 57 .is supported by terminal arms 58 which .are plvoted to any suitable parts of the frame and it may be biased upwardly by means of one or more springs 59 secured to the arms 58 and to the trame. When the arm 44 is in its lowermost position (shown in dot-and-dash lines in Fig. l), the bar 51 is depressed and the switch 40 is opened. Immediately that the arm 44 starts to move upwardly from its lowermost position, the switch 40 closes.

The switch 39 is mounted on the carriage and is adapted to be actuated and controlled by the member' 4E. When this member is in its latched position as shown in Fig. l, the switch 39 is opened. When.. however, the bell crank lever i5 releases the member 46, it rotates in the clockwise direction, as viewed in Fig. l, to a slight extent, closing the switch 39. It may be re marked that at this time the recocking cam 5D is displaced slightly in the countercloerwlse diestaca? rection, as viewed in this ligure, so that this movement of the member 48 is permitted.

To complete the understanding oi' this part of the disclosure, it is pointed out that immediately any one of the arms 38 is displaced upwardly, that is, moved to a position to select the corresponding recording, the switch 38 is closed and power is supplied to the motor 31. The motor is driven in that direction which is determined by the reversing switch system 4I. Consequently, the carriage 42 moves in the corresponding direction until the end of the travel, whereupon the switching system 4I is actuated to reverse the motor and cause travel of the carriage 42 in the opposite direction.

It may here be remarked that at the reversal of the carriage, the tone arm structure 8| is displaced to the other side of the turntable elements 43 and the direction of rotation of the turntable elements 43 is reversed, being at all times appropriate to that side of the record position on which the tone arm structure 8| is located.

The movement of the carriage 42 continues until one oi' the dogs 43 or 88 engages a projec tion 41 or 48 of an arm 38 which has been moved upwardly. In either event the carriage is arrested in the manner referredto above, with the arm 44 immediately below the corresponding record. Upon the arrestment of the carriage 42, the arm 44 moves upwardly. bringing this record between the turntable elements 43. These elements are moved towards each other to clamp the record between them and the needle of the tone arm structure 8l is moved into engagement with the record. At the end of the playing of the record, the mechanism is tripped so that the player arm is elevated from the record and moved outwardly, the turntable elements 43 are separated, and the arm 44 moves downwardly.

If a plurality of arms 38 have been moved upwardly, the switch 38 is held closed until all the records, except the last, have been played. The switch 38 is, however, opened beforethe last selected record is played, the last arm 38 being moved downwardly when the carriage 42 comes to rest for the playing of the last record. Before the downward movement of the last actuated arm 38 is eii'ected, the bell crank lever 45 has unlatched the member 48 so that it has moved in the clockwise direction, as viewed in Fig. 1, to a slight extent, closing the switch 38. Consequently, the motor does not stop when the last actuated arm 38 ls pushed downwardly.

The member 48 is shortly thereafter relatched by the recocking cam 88. When that occurs, the switch 39 is opened. But before the recocking of the member 48 occurs, the arm 44 has moved upwardly, permitting the switch 48 to close. Consequently, the motor continues to operate for the playing of the last selected record and it continues to operate until the last played record has been returned to the magazine and the arm 44 has moved downwardly so as to engage the bar 51 and open switch 44,

It will thus be seen that the mechanism disclosed provides a phonograph which is put into operation by the upward displacement i any one or any number of the arms 38 and that such operation continues until all the recordings corresponding to the displaced arms 38 have been reproduced.

The selector arms 38 are actuated individually by the actuating pins 82. In this embodiment oi the invention there are ten such pins, each one of which is adapted to be brought into cooperative relation with a sub-group of ten arms 88, there being ten such sub-groups. The pins 82 are slidably mounted on a shaft 83 in diametric relation thereto.

The pins 82 are spaced in the longitudinal direction of the shaft at intervals equal to ten times the spacing of adjacent arms 38. Thus, if one pin 82 is below arm 38 corresponding to recording No. 19, the next pin 82 will be below arm 38 (No. 29) and the pin 82 on the other side will be below arm 38 (No. 9) 1 Each pin 82 has a different and individual angular relation, corresponding to the angle between adjacent teeth on a ratchet wheel 84 rigidly mounted on the shaft 83. The pins 82 are preferably displaced by equal angular amounts from one end to the other so that they form a helical arrangement. This, however, is not essential because any arrangement of the pin 82 which will enable nine successive angular displacements of the shaft 83 to bring the other nine pins into the position of the first pin 82 will operate satisfactorily.

Each pin 82 is siidably mounted in a diametric opening in the shaft 83. Near its actuating or upper end, the pin 82 rigidly carries a collar 88 which normally bears on the shaft 83. The lower or actuated end of the pin 82`carries a head 88. A coll spring 81 normally forces the head 88 outwardly or downwardly.

The shaft 83 is rotatably and slidably mounted in a frame 81 which may be mounted below the arms 38 so that the pins 82 may cooperate therewith. The shaft is normally biased to the left as viewed in Fig. 5 by a coil spring 88 which serves both as a torsion spring and a compression spring, normally forcing a collar 89 on the shaft 83 against the frame 81 and forcing a radial abutment 18 on the collar 88 against a fixed abutment 1| on the frame 81. The spring 88 is anchored to the shaft 83 and frame 81.

The shaft 83 is adapted to be moved step by step in the counterclockwlse direction as viewed in Fig. 6 step by step from its normal position by a dog 12 as a result of successive energizations of the relay 13 on the armature of which the dog 12 is mounted. A dog 14 is adapted to engage the ratchet wheel 84 and serve as a holding dog between successlve actuations of the ratchet wheel 84 by the dog 12. The dog 14 is associated with the armature of the relay 18 so that it engages the ratchet Wheel 84 when the relay 15 is enersized.

As will hereinafter be explained, the relay 18 is maintained energized while the relay 13 receives a series oi energizing impulses and indeed it remains energized while another relay 18 receives a series of energizing impulses. It may here be noted that the dog 14 is relatively long to permit the shaft 83 and ratchet wheel 84 to move longitudinally, as hereinafter described.

When the relays 13 and 18 are deenergized, the dogs 12 are disengaged and the shaft 83 is in its normal position with the irst pin 82 displaced by an angle of three ratchet teeth from its operative position, that being the position shown in Fig. l. In the operative position of a pin 82, its actuating end is directed upwardly and its lower end is aligned with a bar 11 which extends below the shaft 83 being supported by terminal arms 18,

which are pivotally mounted on the frame 81.

The bar 11 carries an arm 18 which is connected to the armature of a solenoid 88. It is clear that when one of the pins 82 is orientated as shown in Fig. 1 and is below a bar 38, then when the sacados? lines and |06 receive two regular series ci* impulses as a result of the dialing of a twoedigit number, then the operation of this relay system is as follows:

The relay 13 is energized by the first impulse received which completes a circuit through the relay 15. This relay is locked up since it closes the switch 9| and the D. C. circuit is completed through the relay 'I5 and through the 'normally closed switch 99.

Relay 85 is energized slightly before the relay by the closing o1' the switch 81. This opens the switch 93 and closes the switch 94. These switches remain in this condition during the ilrst series of impulses owing to the delay release characteristic of the relay 85.

As has previously been described, the energication of the relay 15 brings the holding dog 1d into operation and the series of energizations of the relay 13 effects the step-by-step movement of the ratchet wheel 64 to bring the appropriate pin 62 into its operating plane.

At the end of the first set of impulses, relay 85 opens because the switch 91 remains open. The relay 15 remains locked up and it would remain in this condition indefinitely ii it were not for the thermostatic switch |04 which, after an excessive amount of time. permits the relay system to return to normal. Usually, however, another series of impulses is received by the conductors |05 and |06. These impulses energize the relay 19. the circuit being conductor |05, closed switch 90, closed switch 93, relay 15, and conductor |06. When the first impulse of the second series closes the switch |9I. relay 99 is energized, closing the switches 91 and 99 and opening the switch 96.

The switches 91 and 99 provide a lock-up circuit for relay 15 through the closed switch 9|. Consequently, relay 15 is held energized as long as the relay B9 is energized, which is during the reception of a series oi.' impulses by the relay 16. The relay 9E. as has been noted before, is a delay opening relay of the same type as the relay 85.

The closing of the switch 99 energizes the relay 94, closing the switch |00 and opening the switch 99. The opening of the switch 99 breaks the previous holding circuit of the relay 15, but, as has been pointed out above, a new holding circuit has been provided for this relay through the closed switches 91 and 99.

The switch |00 is in series with the solenoid 80 but the circuit of this solenoid is opened at switch 96, this switch opening before switch |09 is closed since relay D is energized before-relay E. Thus, during the reception of the second set of impulses, relay 15 is maintained energized so that the dog 14 prevents rotation of the shaft 63. During the same set of impulses, the relay 84 remains enersized so that the dog '83 is in engagement with the teeth 82 in the manner shown in Fig. 9. Consequently, the series of energizations of the relay 16 is able to step the shaft 93 longitudinally a corresponding number of steps.

When the second series of impulses received by the relay 16 terminates. relay 89 opens up, opening switches 91 and 98 and permitting closing of the switch 96. As a result of the opening oi the .switch 98, the relay 84 is deenerglzed. But, before this deenergization results in the opening of the switch |00, there is a short period in which both switches 98 and |00 are closed. During this short period. the solenoid 80 receives alternating current. with the result that the bar 11 is moved upwardly and the operative pin 62 is likewise moved upwardly to displace the bar 30 corresponding to the signal defined by the two series of impulses. The relay 84 is preferably a delay relay also so that the solenoid is sufficiently energized for effective operation in all cases. The delay of the relay 84 ensures the opening of relay 15 before the relay 94 since otherwise the relay 15 would be locked up through switch 99.

After the solenoid 80 has been actuated in this manner, the relays 34 and 'I5 are deenergized so that the dogs 10 and 83 assume positions in which they are shown in Figs. 6 and 8. Consequently, the spring 68 returns the shaft 63 to its initial position shown in Fig. 5.

The wiring diagram of the power supply is shown in the upper right-hand corner of Fig. l0. This power supply is derived from a multisecondary transformer |09. One secondary IIO is connected in push-pull relation to two gas Thyratrons I I which may suitably be 2051 tubes. Conductor |06 is connected to the center tap of the secondary IIO. Conductor |05 is connected to the cathodes of the tubes III and also to a common wire H2.

The grids of the 20m-type tubes are connected together and to a signal wire II3. Direct current is derived from a tube I|4 which may suitably be an 80-type tube, the diodes of which are connected to the secondary II5. The filament current for the tube I|4 is derived from a secondary IIS. The plate circuit oi the tube |4 includes two series resistors ||1 and |I8, the former being connected to the filament of the tube H4. The resistor ||8 is connected to the center tap of the secondary II5.

To the positive side of the resistor ||1 is connected conductor |02. To the negative side of the resistor I |8 is connected the conductor |03. The negative side of the resistor I8 is connected through suitable resistors II9 and |20 to the signal wire H3 which, as has been noted before, is connected to the grids of the tubes I I I through resistors.

Heater current for the tubes I I I is derived from the secondary i2 I. The transformer |09 also includes a secondary |22, one end oi which is connected to the common wire I I2 and the other being connected to a conductor |23. The resistors I |1 and I8 may suitably be of the order of 48,000 ohms and 12,000 ohms, respectively.

It is to be noted that the cathodes of the tubes II| are considerably more positive than are the grids of these tubes. rnon conductor II2 is connected tothe signal wire IIS, the grids ofthe tubes IiI acquire the same potential as the cathodes so that the tubes l|| function to provide rectified current which is supplied to the lines |05 and |06. When the connection between the common wire |I2 and the signal wire I I3 is broken, the grids oi the tubes I I become strongly negative with respect to their cathodes so that the tubes I I are rendered inoperative.

As will hereinafter appear, the remote control for the operation of the selector provides means which merely connect the wires I|2 and ||3 together for a number of times, depending upon the number dialed. The conductors II2, II3 and |29 lead to the remote control unit and indeed they are connected to any number of such remote control units so that any one of a large number of these units may be actuated independently to make selections which will be reproduced by the phonograph. The remote control unit will now be described.

The remote control unit as a whole is best When, however, the comence numeral iwi. This u; net, a. coin slot slug a. slug' reject cup im?. ecrn slot |25 entete et slug reieetoi." |526. slug pceses to the cup iii. descends from the clue' chute |28 into e suitable com itt' .is urcetefi proi'i) le comN cticn than le a, The Uectiom ttl the p ,i1 two iure the projection 355i as beet .te cuter of the member@ ci shown). @Si povitleti mtl". extensions cmi. A coin descending through im" '11 if@ eciivelilf, which bent llevarn* 01' a. light lever ttt! which the ilioie1'ito,ry foilVPL- @i152 O im@ t'llipi'i liilil@ DI the 1mmciosing of e Switch iti. om@ @i e switch bei ifi'i, tiles@ :.wrticii e @5i-i croi/idiot' side being connected t@ a remy mg; mm3-mem be nctett may here remaiiaedloetween within the cabinet. The @they side o" the relay zh@ till@ PTOJ'ECOHS mi Miti it i5 received the is connected to the common vm@ um end Mii of en outwardly turned The armature i133 of the solenoid of "Toe rel'fity hit 0f EL Iiiililflbi' |32 is arranged so that ifi; eepgmtg WA @3i-@dit The latch membe i5@ is pivctely mounted at ratchet wheel i343. mit loe Imeiretccd that each time the relay tti? energized, the mmm 'Tii ture |33 moves the comme@ v t t im mile lately' beh itl. the sleeve (litt. in the cmmyciggifwis@ dmqmo Tires-e two eieirlente cre free toi: :independent The ratchet wheel iifi is normali-y e; by mmfmlil W30 an escapement cioe Utili eiiewn 'in it. 't The Si@ A '9K8 Slly will readily be undeg-Stood @h3-i, @mh @me the g5; ioicsecl in cotmteiciocltwee cilreeticninymearis ratchet wheel itt ts moved in the coeotercioek 0122 Strong spring i, one emi ci nich is secured wise direction, its 'teeth` move the cscepement U the Sleevemember itilthe om being secured member ist cutwedly so thct it entete the next t0 il Suiib@ iii 011i |311@ wbt The n0-1mm recess in the ciocitwiee cilifectioii with rescect @Osman Ui" im@ mm-U1 35i' 3S El "@iiieti when e. to the recess in which te Shown eiogefgiirig,h l@ 19mm/wifi Dfjiitn i .iii @T1 the ietch itii A pin |36 mounted co the rotcltiet wheel i'fli'l if mled im@ Cflitlii W it iii@ iiii Tile lut is adaptd 1;() Ummm@ Wim g Switch 33'. 3m extends rearwardly tirouglin c suitable openthe normal condition of the ratchet wheel ttt, im@ ill im@ mim'i i best in Fig. the pin |36 is iii engagement with the switch 16- The lug 5| is Cfilli by i plat@ im? lilily |37 holding this switch open. when, mwwey fli mounted on the inteiiorci the cabinet. one or more come are :inserted in the com slot l? will To@ 110%@ @hat W'leii the 1HE Wil @uw |25, the mtahet Whe@ ma is fuplmed by a con preaches the lug iti, tile latch. member i* 1s responding number of teeth @1.0m its initial HDSL swung in the colmterclcclswise direction about its tion in which the Switch ii'll is open. itt wilt 'ce Pivot im, fi its @1U leot@ lm i311@ Wdgunderstood that it 1e mi until the remet wheel Smilie@ iileieciioc the ieich member caw.. |34 is moved beck step loy step to its initial po 1mg iE-0g W3 TV5-'11633 is @www O im Hmmsitlon, that the SW1-tch mi @mm loer ii il et llfl. A spring itt connected. to one side of the switch ici is to the umu-m20- iu fm iii@ @De iiiii and to the base of Signal line H3. The other eide of the switch im( we @WW2/M137 e'd Wwe@ pOrtion itt, tends is connected to one side of e, switch iifi, the w t@ Tomba the dog m3 im@ @100m/i5@ Cil-WCMC other Side of which Switch is cgmlecld to the ar'ouml its pivot. This movement is limited by common wire H2. t will thus be seen that ii abutmmg SmWD-f m -W- the switch |31' is closed, which condition requires The Hmmm @mmm 'the eemm/S 1S Shown |33 is closed e certain @umher of t 'then mmh! mem??? D55 339mg 3009155925. SSWEEI the une gm is Connected the Same .mummy 0f furcatioris nti? and i515 ci' the member The times to the line M3 anni, the seme number or" Spring M1 mly 119mg 55h@ 1U@ im 0f @he blflh impulses is given t@ the limes ice icc with membl it@ against the lug ii S0 tiet the do@ the results pre-www3, escl-med. i653 is forced .in the clockwise direction until :its

The remotecontrol unit is provided with e m5 me" mfiiiwltte the ietf-Mmm l emi ci the opening dial |39 which is .rigidly mounted on s eeve gw," Tm Sp'ng m3 m1 s d0@ m abut" |40 which is rotatably mounted .jm g] h, v m5 relation. to the lieten member iii? et that rigidly carried by the front viali of the cabinet. wma

The sleeve |40 is rotatably mounted ctc shaft n@ Ernie mellmmlgm. Toughened of me dog |42 which extends through the sleeve it@ and. u .LHS decbg idw/mms'. 91nd, l :tngmly Sm'd also extends through e, rear bearing llflii. "1e fumn LP' ming@ p05?. n. aigus. gli" sleeve |40 is provided with a, new im the 'ieee esfofv @i lite Ham- C'wgemw'" www hand end and at th ltd d d m FBT thereto or who corielcterebly less cuvottire than e @L mn @n W MWVG the subst elly circuler 'tlf-inve .itil Tine flfnge m Fig. 13, 1t has secured to it a colieff tilt which s mrmnd memos; tmf. nigh-,3.a 'me yid irremovebly .mounts dial 'upon the cabinet, @EMME-,mg l D49 theI A sprmg lili eeciired to tile comme en@ "L0 of the cog itt :1:1 the manner shown in Figs. .i5 the collar |44 biases the diei iii-i to ite initial 1e @mi i7. 'when the ciel is moved in Line @mail DOSOH determined by Suitable SGUPS M5 0H im@ wise direction, the :member fit moi/ee with dial and the adjacent cabinet well. the reci` lo and this member cori'iee the projection itt with or innermost end of the coller llfll ie ri "itly it inthe manner :alici/v1 otig. i5, mounted a. resilient bifurcetetl member ifl'i. lifie As the dog moves rzom the tongeotiei oorm member IM mey suitably be of sutietemtially disc tion i oi the :flange ilii owto the ez'cuate Iper formation with c. large clot i655 'which I tion of lesser radius, i renders the intermediate Portion it@ between i@ to the icfst?. member the light spring 168 into the position, shown in Fig. 16. When any return, no matter how slight. of the dial is made or is permitted, outer roughened end of the dog 163 grabs the inner roughened surface of the flange 161 .so that the dos.r tends to remain stationary while member 151 is being returned by the spring 159.

A very slight return movement brings; the dog 163 into its position in Fig. 1'? and in this position the wedge-shaped extremity 1511 of the latch member 155 moves clear oi' the smaller projection 1511,. When this occurs, the member 151 is free to return to its initial position notwithstandn ing anything that the patron or operator may do to the dial 139. The only thing which can be done is to permit the dial to return to its normal position which is effected by the spring 145. This spring is sufficiently strong to cause the cam portion 152 of the projection 1511 to rise out wardly and pass over the wedge-shaped end |511 of the latch member 155.

As will hereinafter be described, the return movement of the member 151 is controlled and limited by a governor. If the customer tries, to make the dial Work faster by actuating it in the reverse direction, then the resiliency of the mem" ber 141 is suiicient to enable its projection 15S the latch member 155 so that the member 141 and the dial, which is rigidly connected thereto, I

return to their initial position before the member 151. When, however, the member 151 does return to its initial position, the associated spring 159 is sufciently strong to force the wedgen shaped end 154 of the latch member 155 past the projection 151 into its normal position,

In the normal operation of the device, the projection 154 will move outwardly, beyond the projection 150 when the dos 163 is canted as shown in Fig. 17. The end 154 will not be moved outwardly beyond the projection 151 so that the projection 151 and the latch member 155 are returned to normal position together. If, however, any attempt is made to actuate the dial inter-- mittently in opposite directions or if any attempt is made to force the return ci' the dial, then the dial will be separated completely from the member 151 and from elements controlled thereby.

The member 151 returns to its initial position with the dog 163 dragging along the flange 161 in the manner shown in Fig. 1'1. When the dog 163 reaches the tangential portion or portion oi greater radius 165, clearance is provided between the ange and the dog. Near the end of the return movement ot the member 151. the lug 1611 engages the stationary lug 161 so that the first said lug is forced to the left-hand end of its opening 1611'. The member 151 is thereby stopped.

The engagement between the lusr 160 and the lug 161 swings the latch 155 in the counterclockwise direction so as to bring the dog |63 into the relation in which it is shown in Fig. 15. It may here be remarked that before the next dialing. the furcations 150 and 151 must engage op- Dosite sides of the Wedge-Shaped member 1511 in the manner shown in Fig. so that at the time of the next dialing, the latch member 155 is heid by the slight friction of the furcations 150 and 151 so that it remains engaged therewith until reverse movement of the member 151. When that member is reversed. the dog 163 no longer slips along the Iiange 161. It digs into the flange |81 and it Jackknifes the latch member 1 115 so that its wedge portion @tilt is moved outwardly beyond the iurcatien 1 The rear or inner side of the member 151 carries a rearwardly extending pin 168. The pin 158 is adopted to engage, in the normal position of the member 151, a lug 158 on the end of a lever 1111 pivotally mounted upon a stud shaft 11i rig idly mounted on the wall 152 as best seen in Fig. 13. The stud shaft 111 also serves as a pivotal support for the escapement dog 135 and a similar but oppositely directed dog 112.

The escapenient dogs 135 and 112 are biased towards each other by a spring 113 connected to their rear or uppermost ends, that is, the ends remote from. their ratchet engaging portions. The approach of the ratchet engaging portions of the dogs 15e and 112 is limited by a rearwardly turned lug i111 against which the dogs 135 and 112 abut in the manner shown in Figs. 18 to 2l.

The lever 1111 is biased towards the right by means of a spring 115 so that it tends to move the escapement dog 135 away from the ratchet wheel 131i and tends to move the escapement dog 112 towards the ratchet wheel. Normally the pin 155 holds the lever 1111 in its position shown in lFig. 18. When the pin 163 which is mounted on the member 151 is displaced by the initiation of dialing, the lever is moved to the right by the spring so as to withdraw the tooth of the dog away from the ratchet wheel 134. Before this happens, the tooth of the dog 112 has entered into a recess between two adjacent teeth oi the ratchet wheel 1311 so that the clockwise movement of the ratchet Wheel 134 has been limited to approximately a quarter of a. tooth.

When the rst dialing is completed, the member 151 returns to its initial position, carrying the pin 18B from its position in Fig. 19 back to its position in Fig. 20. This return movement swings the dogs 135 and 112 in the opposite direction but in this case, before the dog 112 has moved out of the tooth recess in which it is shown in Fig. '19, the recess 11S oi the tooth of the dog 135 has become located in enclosing reiation to a tooth of the ratchet wheel 13d. The recess or the double tooth on the escapement member 135 is such that this engagement permits another movement oi" the ratchet wheel 13B in the clockwise direction to the extent of a quarter of a tooth space. The similar recess 111 on the dog 112 is brought into operation at the beginning of the next dialing step as shown in Fig. 21, effecting another quarter of a tooth movement for the ratchet wheel 1311.

The return movement of the pin 1611 brings the mechanism back to the position in which it is shown in Fig. 18 with the exception that the pin 13G has moved one whole tooth nearer the position in which it is able to open switch 131. It may here be noted that this switch opening movement is effected by the pin 136 during the fourth quarter o a tooth movement of the ratchet wheel 135.

Consequently, the net result is that a single coin inserted 1n the coin slot 125 moves the ratchet wheel. 135, one full tooth in the counterclockwise direction and that a dial movement, a return movement, a second dial movement, and a final return movement eiect the step-by-step return oi the ratchet wheel through a distance corresponding to one tooth space.

Behind the sleeve 158 a further sleeve H8 (Fig. '13) is mounted on the shaft N2. The sleeve 118 carries a large gear 119 and a star wheel 180. The end of the sleeve 158 adjacent the gear wheel lili'l comics e. adopted to engage wheel i'l'l es best eiiotro, 182 is biased toweicii; tlie i: means oi e, spring i532?.

It will steadily loe uiieieisto movement in the clockwise ratchet Wheel itil o'iei'e'li,7 el without effecting any trim/r clockwise dii'ectlon, :is weights lill' will be Komt. will loe thiowi'i out oy eeiii;

L l i speed of the gear titl .finti "icieleiit eoiitrol ling the speed et which the gliel impulses sent over the lines.

The stai wheel itil moy be oi engi' oiiitooie insulating matei'iel etici it is eii'eiigeti tti t it closes the switch i313 e. clesiiee'i miiiiisei" of t les depending upon the initial displacement oi tlie dial m9. The oie-enticement suoli fit ii? the patron inserts lois finger in the opening il. on the diei end swings the diei until. ii exgeges the finger stop itil omi tiieii 'eieiises Elie i'iiof., the return of the member li'i will otto-cte star wheel l8il through en ongle eoi'ieeiooiidiifig to three teeth, with tile i'esiiit that tiie wiie il ii will be effectively connected to the eigiioi Wire H3 three times. li? tile opeititoi7 dietieei 7, wires lll and liti would. lie effectively teu times amel, as lies been. pointed, ten impulses would given. to :telef 16, depending upon wlietiiei ci' not t" e tl is the first dialing oi' time secondi die-line' .fiesii'ed recording.

OI course it will loe tineleietoot;

i, est.. clusively ley the iiweetioii oi" com oi1 como in the coin slot.

Although the invention lief; loeei'i ies connection with epeciiic cleteile embodiment thereof, it moet Toe mitici suoli details are not intended to be ii the invention except in. .to q1et ...oi accompamymg claims.

I claim:

l. An automatic phonogi'eoii coiiimis i'ality of displeceable selecto?. trolling the rendition vciiei i'ecoidiiig, a, sexies of eetuetloe membeire eocii, actuate any of e snoeien@ of. eel.. members, impulse actuated -s said actuatingr membeo oeiitttiisi tion with seid dispieccoble emliei'o, imgiolee et tuated means ocizipteti to move eoio ect-ooi :f members stepwise to brim; the juiitei'iositioiieti actuating member into sii-eci selector member oi .im for displacing .solo lo member to cctuote .wiel

come euppoiting seid ec* i menilaeie io el ioceci i'elotion in e, clii'ee tio'o. eiotcg :mici series of seiectoi: members and :l iii direction ti'aiisverse to :First seid cli f "e'yoiiig meco? ici' moving said actuating toto cooperative rele- 1 idivieluoi seiectoin member, eid one of actuating .bete .il e, diifectio to displace seid desired.

Liselecimmemi oiootie Jliooogi pli compi'ising si plu oieceeble seiectoi' members each conig, when displaced, the rendition. oi en i'ecoi'eliiig', actuating member, means oro ive too. iooises to step saisi ecg .czieiiiliei ii. o o, el 'limite position ifeletive i selector me second :means tee-goooi'fi oeooiicl e ee oi impulses to :seid bei' into otlotiiei' .fleiinite position i selected oiie of soicl seiector l remit-siting; :se comi mentioned omite meo'os opeietive, :trici automatic ineens iespoii it ee me., ceiiiy opemb e ioi' ectoe second, mentioned tive, and moons outoiooti ei' tile second sei'ies oi impulses .icl actuating mciiibei' to mouse it .cteti one soiel selector .memg position.

. tie plioiiogi'epii comprising e. pluiaiitif ioizice bie selector .members each cointioiiiicg, when displaced., the i'emlition of sin in alii/'idool iecoiitliiie', on. actuating member, means i'espoosive to series 1 impulses to locate seid octiic me 'o i definite position reletive f' o1 eeiectoi imei bei eccomi mee-.tos respon 'to second .sei'iee ol impulses to loc-ete seid member iii o'oothei" definite position witii i'esoect to eeieoted one of seid selector mem' .eel oy the flint mentioned ieepoifisi" e .tleiiii second mentioned ifeeiooiieiv opere/tive, means automatically opei'eiile second ,sexies of impulses `iol actuating' solo ectutitioe; member to cause it to f -leetefl o e? .Said selector members loci automatic meenefor the impulse i'esp onsive means iniiofiogiooh comprising a oceebie .se ectoi" ,clerc-hers cor- 

